bookbashuk Chapter 390 Weapon System
Chapter 390 Weapon System
Li Yang stood in the center of the laboratory, staring at the dense lines on the design drawings, thinking about the next step to be carried out. The power system and appearance design of the ground effect aircraft carrier aircraft have been basically completed. Next, he will face the design and manufacture of the firepower system. This is not only the core of the aircraft's combat effectiveness, but also the key to the entire project.
"The firepower system must have powerful attack capabilities, while also taking into account the stealth performance and load capacity of the aircraft." Li Yang whispered to himself, then looked up at several core members beside him.
"We need to design a system that can accommodate a variety of weapons and be able to launch them stably during high-speed flight." As he spoke, he began to outline the layout of the firepower system on the drawing.
The first thing Li Yang considered was the missile launch system. As a ground-effect aircraft carrier, it must have the ability to strike from a distance to cope with various battlefield environments. Li Yang decided to install multiple missile launchers on both sides of the aircraft, which must be efficient, stable and concealed.
In order to reduce the radar reflection area, Li Yang decided to use a built-in vertical launch system, which can store missiles vertically in the launch tube, usually hidden inside the fuselage, and eject the missiles through the quickly opened hatch when launching.
"We can use the hydraulic system to control the opening and closing of the launch bay door," Li Yang said, pointing to the launch device on the drawing. "The hydraulic system not only responds quickly, but also remains stable under extreme conditions."
"The material selection of the launch device is also very critical." Lao Wang added, "In order to ensure the concealment and durability of the launch system, we can consider using a special composite material that is not only lightweight but also highly resistant to corrosion."
Li Yang nodded in agreement: "Composite materials are indeed a good choice. At the same time, we also need to coat the inside of the launch bay door with radar-absorbing materials to further reduce radar reflection signals."
The design work could not be relaxed for a moment. Li Yang and Lao Wang led the team to start detailed design and simulation testing of the missile launch system. The position, angle and opening speed of each launch device were calculated and adjusted countless times to ensure that the aircraft could stably launch missiles during high-speed flight and maintain good stealth effect.
"The hatch must open and close within 0.5 seconds." Li Yang stared at the test data and said seriously, "Any delay may cause the missile launch to fail."
After several days of intense work, the design of the missile launch system was finally completed. Li Yang and his team members began to manufacture these launch devices and carefully install them on both sides of the aircraft.
"Pay attention to every detail and don't be lax." Li Yang kept reminding the engineers at the installation site.
When the last launch device was installed, Li Yang stood in front of the aircraft, carefully checking every detail to ensure that all connection points were firm and reliable.
In addition to the missile launch system, Li Yang also decided to equip the aircraft with an advanced laser weapon system. Laser weapons can not only quickly and accurately destroy enemy targets, but also have the advantages of long range and low energy consumption, making them an important weapon on the battlefield in the future.
"The core of the laser weapon system lies in the design of the laser emitter." Li Yang explained as he drew the location of the laser emitter on the blueprint. "We need a device that can release high-energy lasers in a short period of time, while also taking into account the stability and accuracy of the laser beam."
In order to ensure the stability of the laser beam, Li Yang decided to use a fiber laser, which uses optical fiber as a gain medium and can produce a high-power, high-brightness laser beam, making it very suitable for precision strikes.
"Fiber lasers are small in size and can effectively save space," said a young engineer. "We can install them on the front and wings of the aircraft to form an all-round strike network."
Li Yang nodded in agreement: "At the same time, we also need to design an advanced aiming system to ensure that the laser beam can accurately hit the target."
In order to make the laser weapon system more powerful, Li Yang also decided to equip it with an automatic tracking system. This system can monitor the battlefield situation in real time and automatically lock the enemy target, greatly improving the reaction speed and strike accuracy of the laser weapon.
Under Li Yang's guidance, the team members began to work intensively on the design and manufacture of the laser weapon system. The power of each laser transmitter, the accuracy of the aiming system, and the arrangement of the optical fibers have been optimized and tested countless times to ensure that the entire system can perform to its maximum effectiveness in actual combat.
"The cooling system of the laser emitter must be taken into consideration," Li Yang noted on the design drawing. "A lot of heat will be generated when the laser is emitted, and the heat must be dissipated in time, otherwise it will affect the stability of the laser beam."
"We can install a micro liquid cooling system inside the launcher," Lao Wang suggested. "This system can quickly remove the heat inside the launcher and maintain the stable performance of the launcher."
Li Yang nodded in approval: "This design is very reasonable. We will implement it according to this plan."
After months of hard work, the laser weapon system was finally designed. Li Yang led his team members to install these systems one by one into various parts of the aircraft and conducted a series of tests.
"The power of the laser transmitter is very stable, and it can release high-energy laser in a short period of time." An engineer reported excitedly.
Li Yang smiled with satisfaction: "Very good, this means our design is successful."
The aircraft's firepower system has been tested and optimized many times, and finally achieved the expected goal. Li Yang stood in front of the aircraft, his eyes flashing with determination. He knew that this aircraft already has a strong strike capability and can cope with various complex battlefield environments.
After completing the design and manufacture of the firepower system, Li Yang turned his attention to the aircraft's electronic system, which will be the "brain" of the aircraft. It not only controls the firepower system and power system, but is also responsible for navigation, communication, and battlefield situation awareness.
"The electronic system must be highly integrated and reliable," Li Yang said at the design meeting. "We need to design a central processor that can process a large amount of information in real time, while also taking into account the aircraft's anti-interference capabilities."
Li Yang decided to install a high-performance central processing unit in the central cabin of the aircraft. This processor will use the most advanced integrated circuit technology, capable of processing data from various systems at high speed and responding in real time.
"The core architecture of the processor must ensure the efficiency and stability of data processing." Lao Wang added, "We can consider using multi-core parallel processing to improve the system's response speed."
"At the same time, we also need to design a complex fault-tolerant mechanism for the processor." Li Yang continued, "In a battlefield environment, any small fault may cause the aircraft system to crash. We must ensure that the processor can recover quickly when a problem occurs."
In order to improve the processor's anti-interference ability, Li Yang also decided to equip it with an electromagnetic shielding system, which can effectively shield electromagnetic interference from the outside world and ensure that the processor can run stably in various complex environments.
"The material selection of the shielding system is very critical." Li Yang pointed to the processor housing on the drawing and said, "We can use a high-conductivity alloy material, which can not only effectively shield electromagnetic waves, but also has good heat dissipation performance."